Mechanism Driving Molecular Networks Uncovered
Atomic force microscopy image of a DNA hexagonal network © PBL EPFL EPFL scientists have identified a new property, interface ...
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Scientists discover mechanism driving molecular network formation
Scientists have identified a new property, interface flexibility, that controls how certain molecules naturally self-organize into crystalline supramolecular networks. This significant discovery could ...
Can You Hear a Virus? Scientists Use Light To Listen to the Sounds of Life
New research at MSU uses light to reveal viruses’ unique vibrations, opening new doors for biological imaging and antiviral ...
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Scientists Uncover Key to Molecular Network Formation
Covalent bonding is a widely understood phenomenon that joins the atoms of a molecule by a shared electron pair. But in nature, patterns of molecules ...
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The mechanism behind molecular network formation revealed
Large molecules with multiple binding sites can be flexible, but the impact of this flexibility on network formation hasn’t ...
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1,000,000x Magnification with Atomic Force Microscope
Today we're looking at Atomic Force Microscopy! I built a "macro-AFM" to demonstrate the principles of an atomic force ...
High-speed microscopy reveals real-time protein translocation across a bacterial membrane
Protein translocation is an essential, nano-scale dynamic process that facilitates the movement of proteins across cellular ...
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New microscope can image, at once, the full 3D orientation and position of molecules in cells
A hybrid microscope allows scientists to simultaneously image the full 3D orientation and position of an ensemble of molecules, such as labeled proteins inside cells. The microscope combines polarized ...